Guidelines for the preparation of Seminar report
(Don’t change font/size/structure of below given pages no. 2 to 10
only change name/content as per your seminar)
1. Preliminary pages (maintain this sequence only)
TITLE PAGES (see below Page no 2 & 3)
CERTIFICATE (see below Page no 4)
ACKNOWLEDGEMENT (see below Page no 5)
TABLE OF CONTENTS (see below Page no 6 & 7)
ABSTRACT (see below Page no 8)
LIST OF FIGURES (see below Page no 9)
LIST OF TABLES (see below Page no 10)
INFORMATION OF SEMINAR AS PER tABLE OF
CONTENTS/ DATA AVAILABLE WITH YOU
2. Margin should be :
Top 1 inch
Bottom 1 inch
Right 1 inch
Left 1.5 inch
Line spacing: 1.5
3. Text: Times New Roman
4. Font size:
Title of chapter-14 bold
Subtitles: 12 bold.
Text: 12
5. Use plain A4 size sheets and the report Pages in between 15 to 30
pages.
6. It is mandatory to use plain A4 sized sheets.
A
SEMINAR REPORT
ON
“SEMINAR TITLE”
BY
MR. XYZ/
MISS ABC
UNDER THE GUIDANCE OF
PROF. NAME (Ex. PROF. SACHIN S. KALE)
DEPARTMENT OF COMPUTER SCIENCE & ENGINEERING
SHRI TULJABHAVANI COLLEGE OF
ENGINEERING, TULJAPUR - 413601
DR. BABASAHEB AMBEDKAR TECHNOLOGICAL
UNIVERSITY, LONERE, MAHARASHTRA 402103
2021 - 2022
A
SEMINAR REPORT ON
“Seminar Title”
Submitted by,
Mr. XYZ/
Miss ABC
Under the Guidance of,
Prof. Name (Ex. Prof. Sachin S. Kale)
DEPARTMENT OF COMPUTER SCIENCE & ENGINEERING
SHRI TULJABHAVANI COLLEGE OF ENGINEERING,
TULJAPUR- 413601
DR. BABASAHEB AMBEDKAR TECHNOLOGICAL
UNIVERSITY, LONERE, MAHARASHTRA 402103
2021 - 2022
SHRI TULJABHAVANI COLLEGE OF ENGINEERING,
TULJAPUR-413601
CERTIFICATE
This is to certify the project work entitled “Seminar Title” Is bonafide
work carried out by,
Mr. XYZ /Miss ABC
In the partial fulfillment for the award of Degree of Computer Science
Engineering of Dr. Babasaheb Ambedkar Technological University, Lonere.
during the year 2021-2022. The Seminar report has been approved as it
satisfies the academic requirement in respect of Seminar work prescribed for
the said degree.
GUIDE
HOD
Prof. Sachin S. Kale
Prof R. H. Adekar
Principal
Prof N.D.Pergad
ACKNOWLEDGEMENT
We would like to express our sincere gratitude to my Seminar Guide Prof. XYZ
and Head of Department, Prof. R. H. Adekar for his precious time in spite of his busy
schedule. We would like to thank his invaluable advice, and guidance throughout the
project. He is clear with the Seminar objective and pointed out the requirement, and put
me back on track. It is my pleasure to work under his guidance. We find it hard to
imagine that anyone else could be more patient, sincere and a better advisor than he.
We would also like to give our thanks to Prof. R.H. Adekar, HOD
for
continuous support, guidance and inspiration in all the phases of our project work.
We sincerely thank the staff of the Computer Science & Engg. department for
constant encouragement and valuable advice. We would like to thank our Principal Prof.
N. D. Pergad for providing all necessary facilities to complete my Seminar work.
Mr. XYZ/
Miss ABC
TABLE OF CONTENTS
CERTIFICATE
i
ACKNOWLEDGEMENT
ii
TABLE OF CONTENTS
iii
ABSTRACT
iv
LIST OF FIGURES
v
LIST OF TABLES
vi
1
Introduction
01
1.1
Motivation………………………………………………………………..
03
1.1.1
Introduction …………… ……………………………………….
04
1.1.2
Point 2 (if any).................................................…………………..
05
Literature Review ……………………………………………………………...
06
2.1
Introduction ……………………………………………………………...
06
2.2
Literature Survey………………………………… ………….………….. 07
2.3
Summary …………………………………………………………….…... 08
2
3
System Description …………………. ………………………………………… 09
3.1
Introduction ……………………………………………………………… 09
3.2
Background…………… …………………………………………….…… 10
3.3
Evolution ……. ………………………………………….………………
11
3.4
Some Significant Features……….………………………………………
12
3.5
Technological Aspects …………………………………………………..
13
3.6
Architecture …………………………………………………………….
14
3.8
System Components…………………………………………………….
15
3.9
Working…………………………………………………………………
16
3.10 Summary ……………………………………………………………….… 17
4
Expected Outcome/Result……………………………………………………..
18
4.1
point 1……..……………………………………………………………..
18
4.2
point 2 & so on……………………..…………………………………….
18
5
6
7
8
Advantages……………………………………………………………………… 19
5.1
Point 1………………………………………………………………………19
5.2
Point 2 & so on…………..………………………………………………. 19
Applications ……………………………………………….……………………. 20
6.1
Point 1………………………………………………………………………21
6.2
Point 2 & so on…………..………………………………………………….22
Results, Discussions and Conclusions ………………………………………..... 23
7.1
Point 1………………………………………………………………………23
7.2
Point 2 & so on……………………………………………………………..24
Bibliography/References ……………………………………………………… 25
*(Model abstract format change as per yours)
ABSTRACT
Nowadays the Worldwide Interoperability of Microwave Access (WiMAX)
technology becomes popular and receives growing acceptance as a Broadband Wireless
Access (BWA) system. WiMAX has potential success in its line-of-sight (LOS) and non
line-of-sight (NLOS) conditions which operate below 11 GHz frequency. Estimation of
path loss is very important in initial deployment of wireless network and cell planning.
Numerous path loss (PL) models (e.g. Okumura Model, Hata Model) are available to
predict the propagation loss, In this thesis we compare and analyze path loss models in
different receiver antenna heights, different operating frequency, distance between
transmitter and receiver in suburban and open urban environments in NLOS condition.
Our main concentration in this thesis is to find a suitable model for optimization
in different environments to provide guidelines for cell planning of WiMAX. WiMAX
operator utilizes the bands of 2360-2390MHz to provide broadband services. Like all
Radio Frequency (RF), In this thesis, field strength data collected in Ambajogai,
Maharashtra, India, is used to calculate the path loss suffered by the WiMAX signals. The
measured path loss is compared with the theoretical path loss values estimated by the
different propagation models. The best model to estimate the path loss based on the path
loss exponents was determined to be the COST-231 Hata model. From this observation,
an optimization [using least square method] of a model based on COST-231 Hata
parameters is developed to predict path loss for suburban and open urban environments in
the 2375MHz band.
LIST OF FIGURES
1. Name of figure no1……………………………… ……..1(page no)
2. Name of figure no2…………………………………….. 3(page no)
3. Name of figure no3…………………………………….. 5(page no)
LIST OF TABLES
1. Name of Table no1……………………………… ……..1(page no)
2. Name of Table no2…………………………………….. 3(page no)
3. Name of Table no3…………………………………….. 5(page no)